This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

published:08 Jan 2013

views:20799

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

published:21 Jun 2013

views:1348725

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to ground level, and access panels into the upper steamwater communication lines linking the reactor channels to the steam separators on either side. Unit 2 at Chernobyl has been shut down since a fire in 1991 damaged its generators and feedwater system. The reactor is defueled and dry, as are its spent fuel basins.
Some highlights of this video tour:
0:31 The reactor building elevator threatens to malfunction and we take the stairs instead.
3:03 Entrance to the anteroom of the Central Hall on the +20.2m level, where we put on additional PPE clothing.
5:02 Central Hall shielding maze
7:20 Gamma radiation above pressure tubes on reactor face is about 3.3 mR/h.
10:10 Fuel element stringers in the spent fuel pool are locally contaminated and spicy, with one measurement showing 2 R/h.
14:16 Discussion of the division of reactor channels between fuel and the protection and control (SUZ) system, noting that one SUZ channel has been repurposed for neutron transmutation of silicon. The RBMK was particularly good for this, and it occurred in Units 2 and 3 at Chernobyl.
14:58 Ascend the scaffolding to the refueling machine operator's compartment and look out the leaded glass window.

published:12 Dec 2016

views:2168361

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http://bit.ly/2m11xVA
Follow Kathryn on Instagram @kathrynclarksonsmith
Follow Nick on Twitter @npsmith90
Follow Kathryn on Twitter @kathryngracec
Thank you all so much for watching, commenting and subscribing!

Online and offline

The terms "online" and "offline" have specific meanings in regard to computer technology and telecommunications in which "online" indicates a state of connectivity, while "offline" indicates a disconnected state. Common vernacular extended from their computing and telecommunication meanings and refers specifically to an Internet connection. Lastly, in the area of human interaction and conversation, discussions taking place during a business meeting are "online", while issues that do not concern all participants of the meeting should be "taken offline" — continued outside of the meeting.

Definitions

In computer technology and telecommunication, online and offline are defined by Federal Standard 1037C. They are states or conditions of a "device or equipment" or of a "functional unit". To be considered online, one of the following may apply to a system: it is under the direct control of another device; it is under the direct control of the system with which it is associated; or it is available for immediate use on demand by the system without human intervention.

The West Wing (season 4)

The fourth season of the American political drama television series The West Wing aired in the United States on NBC from September 25, 2002 to May 14, 2003 and consisted of 23 episodes.

Production

After the difficulties Aaron Sorkin encountered in writing Season 3, he saw Season 4 as a return to the form he and the show had previously enjoyed, saying "[we] came back to work, after the hiatus, and didn't feel any of that, just felt the week-to-week pressure of trying to write well." In 2003, at the end of the fourth season, Sorkin and fellow executive producer Thomas Schlamme left the show due to internal conflicts at Warner Bros. TV not involving the NBC network, thrusting producer John Wells into an expanded role as showrunner.Rob Lowe departed the series after episode 17, citing he was not happy with his character Sam Seaborn and believed he did not fit in the show anymore.

Cast

The fourth season had star billing for ten major roles. Nine of these were filled by returning main cast members from the third season. Rob Lowe receives star billing for the episodes in which he appears, while Martin Sheen receives the "and" credit for his role as President Josiah Bartlet. The rest of the ensemble, including (from episode eleven) Joshua Malina, are credited alphabetically. Rob Lowe departs in episode seventeen. Channing is only credited for the episodes in which she appears.

Killzone Shadow Fall

Killzone Shadow Fall is a first-person shootervideo game developed by Guerrilla Games and published by Sony Computer Entertainment. It is the sixth game of the Killzone series and the fourth game of that series for home consoles.Killzone Shadow Fall was released on 15 November 2013 as a launch title for the PlayStation 4 in North America and 29 November 2013 in Europe. The game was released on 22 February 2014 in Japan. Taking place 30 years after the events of Killzone 3, Shadow Fall follows a new set of characters, putting players in the role of Lucas Kellan, a "Shadow Marshal", who is investigating a rising threat in the continuing war between Vekta and the Helghast.

As the first game in the series made for next-gen consoles, Killzone Shadow Fall received a number of changes to the series formula. The single-player campaign is more open-ended and stealth-based than its predecessors, and the multiplayer modes feature new customization options for weapons.

Killzone Shadow Fall's reception was generally favorable overall; it was widely praised for its visuals and multiplayer modes, but criticized for its single-player campaign, several gameplay aspects, and lack of innovation as one of the first eighth generation games. As of January 2014, Killzone Shadow Fall has sold 2.1 million copies, making it the first PlayStation 4 game to pass the million copy mark and the best-selling PlayStation 4 game.

Fine Brothers

Benny Fine (born March 19, 1981) and Rafi Fine (born June 9, 1983), known together as the Fine Brothers, are online producers, writers, and directors, who are best known for their React video series, their several timed-spoiler series, narrative web series, as well as creating the first transmedia sitcom on YouTube, MyMusic. The Fine Brothers have been creating content online since 2004. They are behind their company, Fine Brothers Entertainment, a full service production company of digital series, television shows, and feature films. As of January 2016, the Fine Brothers channel has over 13 million subscribers and 3 billion views.

Early life and career

The brothers grew up in the 1990s in an Orthodox Jewish family in Brooklyn. The Fine Brothers stated that they have been making videos almost their entire life; Benny, being the elder brother, would "rope [Rafi] into making all kinds of weird stuff."New York detailed the two "started recording comedy sketches as adolescents, when they got their first video camera." They spent most of their teen years in Sullivan County, New York. Benny started college at age 15, while Rafi attended Dickinson College for two years before transferring to Hunter College, where he got a degree in film studies. The two began entertaining their friends with short sketches and full length comedies shot with action figures.

KILLZONE™ SHADOW FALL get the reactors online

Four Types of F T Reactors

This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

3:53

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

18:03

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to ground level, and access panels into the upper steamwater communication lines linking the reactor channels to the steam separators on either side. Unit 2 at Chernobyl has been shut down since a fire in 1991 damaged its generators and feedwater system. The reactor is defueled and dry, as are its spent fuel basins.
Some highlights of this video tour:
0:31 The reactor building elevator threatens to malfunction and we take the stairs instead.
3:03 Entrance to the anteroom of the Central Hall on the +20.2m level, where we put on additional PPE clothing.
5:02 Central Hall shielding maze
7:20 Gamma radiation above pressure tubes on reactor face is about 3.3 mR/h.
10:10 Fuel element stringers in the spent fuel pool are locally contaminated and spicy, with one measurement showing 2 R/h.
14:16 Discussion of the division of reactor channels between fuel and the protection and control (SUZ) system, noting that one SUZ channel has been repurposed for neutron transmutation of silicon. The RBMK was particularly good for this, and it occurred in Units 2 and 3 at Chernobyl.
14:58 Ascend the scaffolding to the refueling machine operator's compartment and look out the leaded glass window.

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http://bit.ly/2m11xVA
Follow Kathryn on Instagram @kathrynclarksonsmith
Follow Nick on Twitter @npsmith90
Follow Kathryn on Twitter @kathryngracec
Thank you all so much for watching, commenting and subscribing!

Reaction to Reactors video on how to make money online

Nuclear Reactor - Understanding how it works | Physics Elearnin

Nuclear Reactor - Understanding how it works | Physics Elearnin videoNuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system.
A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods.
Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the reactor, in large power reactor thousands of fuel elements are placed close to each other. This region where these fuel elements are placed is called the reactor core. These fuel elements are normally immersed in water which acts as a moderator.
The objective of a moderator is to slow down the energy neutrons in a nuclear reactor which are produced during the nuclear fission process by the fuel elements. Thermal neutrons, which are neutrons with energy of about 0.04 electron volts, are capable of producing fission reaction with 235 92U. During the fission reaction process, new neutrons are given out which have energies of about 1 MeV. These neutrons of typically escape from participating in another fission process as they are accompanied by enormous energy release. In f -ct, the probability of these neutrons produce another fission reaction is 500 times less than as compared to that of a thermal neutron. This is where moderator is extremely useful. Moderator has the capability to slow down, or in other words moderate, the speed of these high-energy neutrons, so that they can in turn be used for a chain reaction to trigger multiple fission reactions of other 235 92U nucleus.
Commonly, ordinary or heavy water is used as moderator in nuclear reactors because of the deuterons present in them which are capable of slowing the neutron speed. Water molecules in the moderator are useful in slowing down the high-energy neutrons which leave the fuel-element after nuclear fission. These high-energy neutrons collide with water molecules thereby losing out on some energy with every collision and therefore slow down substantially. A new fission reaction can now be triggered using this slow neutron by striking it with the fuel element.
The third and of the most prominent part of a nuclear reactor are the control rods. In order to get a steady output of energy from the nuclear reactor, every single nuclear fission reaction should trigger another fission reaction and ensure the availability of a spare neutron released to trigger the chain reaction. By controlling the number of spare neutrons available at any given time, the rate of the nuclear fission chain reaction can be controlled. This control on the fission reaction can be maintained using the control rods.
The main function of the control rods is to absorb any excess or spare neutron in the moderator in order to prevent any further fission reaction. Usually such control rods are made of Boron or Cadmium. To increase the rate of fission reactions, these rods can be removed from the moderator. A steady output of energy can be thus maintained by inserting or removing the control rods in the nuclear reactor.
Now that we know the components of a nuclear reactor, let us understand the working of a nuclear reactor. It is usually enclosed in a shield made of thick concrete walls. It consists of a reactor core, pump and heat exchanger. The reactor core and pump are in placed in contact with the water, which is usually the heat exchanger used in reactors. Due to the enormous amount of heat released dusing nuclear fission reaction, this surrounding water gets heated up and changes to steam, which is in turn used to turn the turbines. Thus huge heat energy gets converted into electrical energy. Water is continuously flown in and out of the nuclear reactor using the pump.
Thus a nuclear reactor successfully generates nuclear energy from fission reaction.

40:41

Nuclearcraft How To Pt. 3: Fission Reactors

Nuclearcraft How To Pt. 3: Fission Reactors

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

1:13:45

Molten Salt Reactors - Dr Ian Scott

Molten Salt Reactors - Dr Ian Scott

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

Pressurized Water Reactor

Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

Killzone Shadow Fall Get the Reactors Online

WAR BETWEEN REACTORS! - College Kids & Kids React Special

Special thanks to Com2us and Summoners War for sponsoring this video! Download the game here: http://smarturl.it/fbeSW
SUBSCRIBE TO THE REACT CHANNEL! https://goo.gl/7SnCnC
Watch all episodes of REACT GAMING: http://goo.gl/TVhuol
Watch all REACT channel videos from this week: http://goo.gl/th0yyt
These College Kids and Kids play Com2us and Summoners War! Subscribe to see their reaction to games every week!
The following episode featured the following Reactors:
KIDS
Gabe, age 9
Kelis, age 10
Lucas, age 8
Madison, age 8
Sydney, age 9
Tyler, age 11
https://www.instagram.com/Tyler.j.d/
COLLEGE KIDS
Adam
https://www.youtube.com/channel/UCpBNdUhUQviSkj3XYVEQCDA
Labib
https://www.youtube.com/user/Labib96
Madison
Morgan
https://www.youtube.com/channel/UC9q5nzg7pINO92lphrgIXhw
Sheila
https://ww...

KILLZONE™ SHADOW FALL get the reactors online

Four Types of F T Reactors

This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

published: 08 Jan 2013

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

published: 21 Jun 2013

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to groun...

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017...

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http:...

published: 14 Mar 2017

Reaction to Reactors video on how to make money online

Nuclear Reactor - Understanding how it works | Physics Elearnin

Nuclear Reactor - Understanding how it works | Physics Elearnin videoNuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system.
A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods.
Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the react...

published: 23 Apr 2013

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

published: 10 Aug 2016

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

Pressurized Water Reactor

Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
BangGoes Th...

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to ground level, and access panels into the upper steamwater communication lines linking the reactor channels to the steam separators on either side. Unit 2 at Chernobyl has been shut down since a fire in 1991 damaged its generators and feedwater system. The reactor is defueled and dry, as are its spent fuel basins.
Some highlights of this video tour:
0:31 The reactor building elevator threatens to malfunction and we take the stairs instead.
3:03 Entrance to the anteroom of the Central Hall on the +20.2m level, where we put on additional PPE clothing.
5:02 Central Hall shielding maze
7:20 Gamma radiation above pressure tubes on reactor face is about 3.3 mR/h.
10:10 Fuel element stringers in the spent fuel pool are locally contaminated and spicy, with one measurement showing 2 R/h.
14:16 Discussion of the division of reactor channels between fuel and the protection and control (SUZ) system, noting that one SUZ channel has been repurposed for neutron transmutation of silicon. The RBMK was particularly good for this, and it occurred in Units 2 and 3 at Chernobyl.
14:58 Ascend the scaffolding to the refueling machine operator's compartment and look out the leaded glass window.

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to ground level, and access panels into the upper steamwater communication lines linking the reactor channels to the steam separators on either side. Unit 2 at Chernobyl has been shut down since a fire in 1991 damaged its generators and feedwater system. The reactor is defueled and dry, as are its spent fuel basins.
Some highlights of this video tour:
0:31 The reactor building elevator threatens to malfunction and we take the stairs instead.
3:03 Entrance to the anteroom of the Central Hall on the +20.2m level, where we put on additional PPE clothing.
5:02 Central Hall shielding maze
7:20 Gamma radiation above pressure tubes on reactor face is about 3.3 mR/h.
10:10 Fuel element stringers in the spent fuel pool are locally contaminated and spicy, with one measurement showing 2 R/h.
14:16 Discussion of the division of reactor channels between fuel and the protection and control (SUZ) system, noting that one SUZ channel has been repurposed for neutron transmutation of silicon. The RBMK was particularly good for this, and it occurred in Units 2 and 3 at Chernobyl.
14:58 Ascend the scaffolding to the refueling machine operator's compartment and look out the leaded glass window.

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient...

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now kno...

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http://bit.ly/2m11xVA
Follow Kathryn on Instagram @kathrynclarksonsmith
Follow Nick on Twitter @npsmith90
Follow Kathryn on Twitter @kathryngracec
Thank you all so much for watching, commenting and subscribing!

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http://bit.ly/2m11xVA
Follow Kathryn on Instagram @kathrynclarksonsmith
Follow Nick on Twitter @npsmith90
Follow Kathryn on Twitter @kathryngracec
Thank you all so much for watching, commenting and subscribing!

Nuclear Reactor - Understanding how it works | Physics Elearnin videoNuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system.
A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods.
Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the reactor, in large power reactor thousands of fuel elements are placed close to each other. This region where these fuel elements are placed is called the reactor core. These fuel elements are normally immersed in water which acts as a moderator.
The objective of a moderator is to slow down the energy neutrons in a nuclear reactor which are produced during the nuclear fission process by the fuel elements. Thermal neutrons, which are neutrons with energy of about 0.04 electron volts, are capable of producing fission reaction with 235 92U. During the fission reaction process, new neutrons are given out which have energies of about 1 MeV. These neutrons of typically escape from participating in another fission process as they are accompanied by enormous energy release. In f -ct, the probability of these neutrons produce another fission reaction is 500 times less than as compared to that of a thermal neutron. This is where moderator is extremely useful. Moderator has the capability to slow down, or in other words moderate, the speed of these high-energy neutrons, so that they can in turn be used for a chain reaction to trigger multiple fission reactions of other 235 92U nucleus.
Commonly, ordinary or heavy water is used as moderator in nuclear reactors because of the deuterons present in them which are capable of slowing the neutron speed. Water molecules in the moderator are useful in slowing down the high-energy neutrons which leave the fuel-element after nuclear fission. These high-energy neutrons collide with water molecules thereby losing out on some energy with every collision and therefore slow down substantially. A new fission reaction can now be triggered using this slow neutron by striking it with the fuel element.
The third and of the most prominent part of a nuclear reactor are the control rods. In order to get a steady output of energy from the nuclear reactor, every single nuclear fission reaction should trigger another fission reaction and ensure the availability of a spare neutron released to trigger the chain reaction. By controlling the number of spare neutrons available at any given time, the rate of the nuclear fission chain reaction can be controlled. This control on the fission reaction can be maintained using the control rods.
The main function of the control rods is to absorb any excess or spare neutron in the moderator in order to prevent any further fission reaction. Usually such control rods are made of Boron or Cadmium. To increase the rate of fission reactions, these rods can be removed from the moderator. A steady output of energy can be thus maintained by inserting or removing the control rods in the nuclear reactor.
Now that we know the components of a nuclear reactor, let us understand the working of a nuclear reactor. It is usually enclosed in a shield made of thick concrete walls. It consists of a reactor core, pump and heat exchanger. The reactor core and pump are in placed in contact with the water, which is usually the heat exchanger used in reactors. Due to the enormous amount of heat released dusing nuclear fission reaction, this surrounding water gets heated up and changes to steam, which is in turn used to turn the turbines. Thus huge heat energy gets converted into electrical energy. Water is continuously flown in and out of the nuclear reactor using the pump.
Thus a nuclear reactor successfully generates nuclear energy from fission reaction.

Nuclear Reactor - Understanding how it works | Physics Elearnin videoNuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system.
A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods.
Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the reactor, in large power reactor thousands of fuel elements are placed close to each other. This region where these fuel elements are placed is called the reactor core. These fuel elements are normally immersed in water which acts as a moderator.
The objective of a moderator is to slow down the energy neutrons in a nuclear reactor which are produced during the nuclear fission process by the fuel elements. Thermal neutrons, which are neutrons with energy of about 0.04 electron volts, are capable of producing fission reaction with 235 92U. During the fission reaction process, new neutrons are given out which have energies of about 1 MeV. These neutrons of typically escape from participating in another fission process as they are accompanied by enormous energy release. In f -ct, the probability of these neutrons produce another fission reaction is 500 times less than as compared to that of a thermal neutron. This is where moderator is extremely useful. Moderator has the capability to slow down, or in other words moderate, the speed of these high-energy neutrons, so that they can in turn be used for a chain reaction to trigger multiple fission reactions of other 235 92U nucleus.
Commonly, ordinary or heavy water is used as moderator in nuclear reactors because of the deuterons present in them which are capable of slowing the neutron speed. Water molecules in the moderator are useful in slowing down the high-energy neutrons which leave the fuel-element after nuclear fission. These high-energy neutrons collide with water molecules thereby losing out on some energy with every collision and therefore slow down substantially. A new fission reaction can now be triggered using this slow neutron by striking it with the fuel element.
The third and of the most prominent part of a nuclear reactor are the control rods. In order to get a steady output of energy from the nuclear reactor, every single nuclear fission reaction should trigger another fission reaction and ensure the availability of a spare neutron released to trigger the chain reaction. By controlling the number of spare neutrons available at any given time, the rate of the nuclear fission chain reaction can be controlled. This control on the fission reaction can be maintained using the control rods.
The main function of the control rods is to absorb any excess or spare neutron in the moderator in order to prevent any further fission reaction. Usually such control rods are made of Boron or Cadmium. To increase the rate of fission reactions, these rods can be removed from the moderator. A steady output of energy can be thus maintained by inserting or removing the control rods in the nuclear reactor.
Now that we know the components of a nuclear reactor, let us understand the working of a nuclear reactor. It is usually enclosed in a shield made of thick concrete walls. It consists of a reactor core, pump and heat exchanger. The reactor core and pump are in placed in contact with the water, which is usually the heat exchanger used in reactors. Due to the enormous amount of heat released dusing nuclear fission reaction, this surrounding water gets heated up and changes to steam, which is in turn used to turn the turbines. Thus huge heat energy gets converted into electrical energy. Water is continuously flown in and out of the nuclear reactor using the pump.
Thus a nuclear reactor successfully generates nuclear energy from fission reaction.

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover th...

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of ...

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira O...

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

published: 06 Feb 2018

Reaction to Reactors video on how to make money online

Next Generation Nuclear Reactors

Nuclear power in the U.S. is made up of 99 commercial reactors -- 65 pressurized water reactors and 34 boiling water reactors. In 2016 they produced a total of 805.3 terawatt-hours of electricity or almost 20% of the nation's total electric energy generation. Majority of reactors in operation around the world are considered Generation II reactors. More Generation III reactors are coming online.
Safety concerns and the high costs of development and operations have led to a new generation of advanced nuclear power designs.
Small Nuclear Power Reactors
Small nuclear reactors are becoming a cheaper and safer alternative to traditional nuclear power plant designs.
Advanced Nuclear Power Reactors
Newer advanced reactors are being built using simpler designs to reduce cost, increase fuel ...

Kobe Steel data scandal to delay restart of four nuclear reactors

The planned restart of four reactors in central and southwestern Japan will be delayed as nuclear operators need time to confirm whether peripheral equipment used parts affected by Kobe Steel’s data fabrication, the operators said Thursday. The reactors affected are the Nos. 3 and 4 units at Kansai Electric Power Co.’s Oi plant in Fukui Prefecture and the Nos. 3 and 4 units at Kyushu Electric Power Co.’s Genkai plant in Saga Prefecture. All four reactors were originally set to go online early next year. According to the Nuclear Regulation Authority, which received reports from utilities after the data fabrication came to light, Kobe Steel Ltd. products were used in the four reactors. But the utilities said at the time they were not products affected by the data fabrication. Kansai Elect...

published: 30 Nov 2017

Fission and Nuclear Reactors | Class 12 Physics Nuclei

Fission and Nuclear Reactors | Class 12 Physics Nuclei by Blaze
Scholarslearning.com is an online education portal that provides interactive study material for students of classes 6th to 12th for CBSE. Complete with elaborate live classes, multimedia tutorials, interactive exercises, practice tests and expert help, we endeavor to make school easy for students and help them score more. We also provide free NCERT solutions, subject-wise synopses and chapter-wise revision notes for classes 6th to 12th for a thorough understanding of concepts right from a basic to an advanced level of difficulty.
Download scholarslearning app from android and ios .

신고리 공론화위원회 권고안 발표
A state commission has announced the results of its public survey over the fate of two nuclear reactors,... that were being built near Ulsan in the southeast of the country.
The reactors' construction had previously been suspended by the Moon administration.
Our Ji Myung-kil now joins us on the phone to tell us more.
So Myung-kil,... walk us through the results of this survey.
Hello Daeun.
I'm at the government-complex in Seoul right now.
And just four hours ago,... the chairman of the state commission,... Kim Ji-hyung, announced the results... saying nearly 60 percent of the public favored continuing the construction of the two unfinished nuclear reactors... while 40 percent called for abandoning the construction.
Currently,... the two reactors are about 30 perce...

METTLER TOLEDO seminars are local events tailored to R&D and ProcessDevelopment topics, such as crystallization, continuous flow chemistry, or chemical process safety: https://www.mt.com/us/en/home/events/seminars/Automated-Reactors-Seminars.htmlOnline seminars are interactive web-based events designed for scientists to learn from industry experts in topics, including crystallization, continuous flow chemistry, or chemical process development.
Seminars allow chemists and engineers to hear from industry experts and influencers, network with like-minded peers, engage with new technologies, learn pioneering industry trends, and gain practical techniques for reaction understanding and process optimization.
Product and application training offerings include ReactIR FTIRSpectroscopy Onsi...

published: 26 Jun 2017

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

http://ThoriumRemix.com/ This 2-fluid reactor design was also designed to be modular. To bring new nuclear power plants online quickly- they were into Small Modular Reactors before Small Modular Reactors were cool. Liquid fluoride reactors with their low pressure operation are particularly suitable to modular construction. -Kirk Sorensen of Flibe Energy
Thorium & MSR & Nuclear assets used in Thorium Remix project.

published: 20 May 2017

10 More Nuclear Reactors Get Union Government Nod In The Country

Around 10 nuclear reactors get Union Government's nod in the country.
Kairali People is a leading Malayalam news channel, owned by Kairali TV, which brings to you round the clock coverage of breaking news. The channel is reputed for its accurate, fast and unbiased coverage of news stories. Apart from regional news, this channel brings to you news from across the globe.
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Playing around with the Big Reactors mod. Hermitcraft Mod Sauce server is an online Minecraft server inhabited solely by YouTubers for the purpose of making videos. My goal in this game is to show you you the best in cool building and crafting on this modded server!
Donate for rewards!
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Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira O...

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

Next Generation Nuclear Reactors

Nuclear power in the U.S. is made up of 99 commercial reactors -- 65 pressurized water reactors and 34 boiling water reactors. In 2016 they produced a total of ...

Nuclear power in the U.S. is made up of 99 commercial reactors -- 65 pressurized water reactors and 34 boiling water reactors. In 2016 they produced a total of 805.3 terawatt-hours of electricity or almost 20% of the nation's total electric energy generation. Majority of reactors in operation around the world are considered Generation II reactors. More Generation III reactors are coming online.
Safety concerns and the high costs of development and operations have led to a new generation of advanced nuclear power designs.
Small Nuclear Power Reactors
Small nuclear reactors are becoming a cheaper and safer alternative to traditional nuclear power plant designs.
Advanced Nuclear Power Reactors
Newer advanced reactors are being built using simpler designs to reduce cost, increase fuel efficiency and make it safer.
In this video, I cover GenerationIII and IV Reactors.
About Christian Amyx
11 year old programmer & Internet of Things maker. Spreading the love of innovation and development to kids around the world. (Account moderated by parents.)
Website: http://www.christianamyx.com
Twitter: https://twitter.com/ChristianAmyx1
YouTube: https://www.youtube.com/channel/UCaS3FRM37828OVobZPcRN-A

Nuclear power in the U.S. is made up of 99 commercial reactors -- 65 pressurized water reactors and 34 boiling water reactors. In 2016 they produced a total of 805.3 terawatt-hours of electricity or almost 20% of the nation's total electric energy generation. Majority of reactors in operation around the world are considered Generation II reactors. More Generation III reactors are coming online.
Safety concerns and the high costs of development and operations have led to a new generation of advanced nuclear power designs.
Small Nuclear Power Reactors
Small nuclear reactors are becoming a cheaper and safer alternative to traditional nuclear power plant designs.
Advanced Nuclear Power Reactors
Newer advanced reactors are being built using simpler designs to reduce cost, increase fuel efficiency and make it safer.
In this video, I cover GenerationIII and IV Reactors.
About Christian Amyx
11 year old programmer & Internet of Things maker. Spreading the love of innovation and development to kids around the world. (Account moderated by parents.)
Website: http://www.christianamyx.com
Twitter: https://twitter.com/ChristianAmyx1
YouTube: https://www.youtube.com/channel/UCaS3FRM37828OVobZPcRN-A

Kobe Steel data scandal to delay restart of four nuclear reactors

The planned restart of four reactors in central and southwestern Japan will be delayed as nuclear operators need time to confirm whether peripheral equipment us...

The planned restart of four reactors in central and southwestern Japan will be delayed as nuclear operators need time to confirm whether peripheral equipment used parts affected by Kobe Steel’s data fabrication, the operators said Thursday. The reactors affected are the Nos. 3 and 4 units at Kansai Electric Power Co.’s Oi plant in Fukui Prefecture and the Nos. 3 and 4 units at Kyushu Electric Power Co.’s Genkai plant in Saga Prefecture. All four reactors were originally set to go online early next year. According to the Nuclear Regulation Authority, which received reports from utilities after the data fabrication came to light, Kobe Steel Ltd. products were used in the four reactors. But the utilities said at the time they were not products affected by the data fabrication. Kansai Electric Power has so far ruled out any safety concerns, and on Monday Shigeki Iwane, the firm’s president, said he didn’t expect the issue would cause a delay. But the company is now considering pushing back the schedule for restarting the Oi reactors in order to inspect their peripheral equipment, company officials said. Just days earlier, Fukui Gov. Issei Nishikawa gave final local consent for the reactivation of the two reactors, which have cleared a set of new safety requirements introduced after the 2011Fukushima nuclear crisis. Fukui also hosts Kansai Electric Power’s Takahama plant, where two reactors have already resumed operation. There are lingering concerns over whether the utility and residents are fully prepared for the risk of a scenario involving simultaneous disasters at the two nearby complexes. The Fukuoka-based Kyushu Electric said Thursday it will postpone the reactivation of the Genkai reactors to March and May, respectively. The firm has found that its reactor containment vessels used reinforcing bars supplied by Kobe Steel. But the products were made at factories that were not involved in data fabrication, according to the utility. The reactivation of the four reactors at the Oi and Genkai plants would bring the number of reactors operating in Japan to nearly 10, depending on whether other currently idled reactors go online as well. Japan currently has about 40 commercial reactors, but progress to bring them back online has been slow amid lingering safety concerns. Kobe Steel has admitted to falsifying data for its products and specifications — including aluminum, copper, steel powder, liquid crystal display materials and special steel products — which were supplied to 525 companies, from major automakers to bullet train operators..

The planned restart of four reactors in central and southwestern Japan will be delayed as nuclear operators need time to confirm whether peripheral equipment used parts affected by Kobe Steel’s data fabrication, the operators said Thursday. The reactors affected are the Nos. 3 and 4 units at Kansai Electric Power Co.’s Oi plant in Fukui Prefecture and the Nos. 3 and 4 units at Kyushu Electric Power Co.’s Genkai plant in Saga Prefecture. All four reactors were originally set to go online early next year. According to the Nuclear Regulation Authority, which received reports from utilities after the data fabrication came to light, Kobe Steel Ltd. products were used in the four reactors. But the utilities said at the time they were not products affected by the data fabrication. Kansai Electric Power has so far ruled out any safety concerns, and on Monday Shigeki Iwane, the firm’s president, said he didn’t expect the issue would cause a delay. But the company is now considering pushing back the schedule for restarting the Oi reactors in order to inspect their peripheral equipment, company officials said. Just days earlier, Fukui Gov. Issei Nishikawa gave final local consent for the reactivation of the two reactors, which have cleared a set of new safety requirements introduced after the 2011Fukushima nuclear crisis. Fukui also hosts Kansai Electric Power’s Takahama plant, where two reactors have already resumed operation. There are lingering concerns over whether the utility and residents are fully prepared for the risk of a scenario involving simultaneous disasters at the two nearby complexes. The Fukuoka-based Kyushu Electric said Thursday it will postpone the reactivation of the Genkai reactors to March and May, respectively. The firm has found that its reactor containment vessels used reinforcing bars supplied by Kobe Steel. But the products were made at factories that were not involved in data fabrication, according to the utility. The reactivation of the four reactors at the Oi and Genkai plants would bring the number of reactors operating in Japan to nearly 10, depending on whether other currently idled reactors go online as well. Japan currently has about 40 commercial reactors, but progress to bring them back online has been slow amid lingering safety concerns. Kobe Steel has admitted to falsifying data for its products and specifications — including aluminum, copper, steel powder, liquid crystal display materials and special steel products — which were supplied to 525 companies, from major automakers to bullet train operators..

Fission and Nuclear Reactors | Class 12 Physics Nuclei by Blaze
Scholarslearning.com is an online education portal that provides interactive study material for students of classes 6th to 12th for CBSE. Complete with elaborate live classes, multimedia tutorials, interactive exercises, practice tests and expert help, we endeavor to make school easy for students and help them score more. We also provide free NCERT solutions, subject-wise synopses and chapter-wise revision notes for classes 6th to 12th for a thorough understanding of concepts right from a basic to an advanced level of difficulty.
Download scholarslearning app from android and ios .

Fission and Nuclear Reactors | Class 12 Physics Nuclei by Blaze
Scholarslearning.com is an online education portal that provides interactive study material for students of classes 6th to 12th for CBSE. Complete with elaborate live classes, multimedia tutorials, interactive exercises, practice tests and expert help, we endeavor to make school easy for students and help them score more. We also provide free NCERT solutions, subject-wise synopses and chapter-wise revision notes for classes 6th to 12th for a thorough understanding of concepts right from a basic to an advanced level of difficulty.
Download scholarslearning app from android and ios .

신고리 공론화위원회 권고안 발표
A state commission has announced the results of its public survey over the fate of two nuclear reactors,... that were being built near Ulsan...

신고리 공론화위원회 권고안 발표
A state commission has announced the results of its public survey over the fate of two nuclear reactors,... that were being built near Ulsan in the southeast of the country.
The reactors' construction had previously been suspended by the Moon administration.
Our Ji Myung-kil now joins us on the phone to tell us more.
So Myung-kil,... walk us through the results of this survey.
Hello Daeun.
I'm at the government-complex in Seoul right now.
And just four hours ago,... the chairman of the state commission,... Kim Ji-hyung, announced the results... saying nearly 60 percent of the public favored continuing the construction of the two unfinished nuclear reactors... while 40 percent called for abandoning the construction.
Currently,... the two reactors are about 30 percent complete.
The commission also stated that although the public were in favor of restarting the construction,... when it comes to future policy, over 50 percent of the participants advised the government to opt for cleaner sources of energy.
Back in June... the government suspended the reactors' construction, and then established the independent commission in charge of collecting views from the public.
Since August, the commission formed a jury and provided them with information on the merits and downsides of the project.
The 471 jury members spent four days together debating the issue over the past weekend,... during which they heard from experts representing both sides.
After that, the commission conducted a final survey of the jury, and based on its results, drew up its recommendation to the government.
Myungkil the 471-person jury's decision deals quite a big blow to President Moon's drive to ultimately make Korea a nuclear-free country. What was the reaction from the Blue House?
Yes, Daeun that's right.
President Moon Jae-in will preside over the Cabinet meeting on October 24th and will make the final decision over whether to accept the committee's recommendation... to restart the construction of the Shin Kori 5 and 6 nuclear reactors.
Now it is likely that President Moon will respect the commission's decision and give the green light to the construction.
After getting Cabinet approval,... the state-run electric power company will notify contractors and restart the construction.
Such a decision does go counter to President Moon's pledge during his campaign period as he had said he would halt the construction of any nuclear reactors.
Some four million U.S. dollars was spent running this special commission,... and over one billion dollars has been spent on the Shin Kori 5 and 6 nuclear reactor construction project.
But while the decision to restart construction is a set-back for President Moon, the commission's other findings could be seen as in line with the Moon administration's plans to phase out Korea's reliance on nuclear energy in the long-term.
Back to you Daeun.
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신고리 공론화위원회 권고안 발표
A state commission has announced the results of its public survey over the fate of two nuclear reactors,... that were being built near Ulsan in the southeast of the country.
The reactors' construction had previously been suspended by the Moon administration.
Our Ji Myung-kil now joins us on the phone to tell us more.
So Myung-kil,... walk us through the results of this survey.
Hello Daeun.
I'm at the government-complex in Seoul right now.
And just four hours ago,... the chairman of the state commission,... Kim Ji-hyung, announced the results... saying nearly 60 percent of the public favored continuing the construction of the two unfinished nuclear reactors... while 40 percent called for abandoning the construction.
Currently,... the two reactors are about 30 percent complete.
The commission also stated that although the public were in favor of restarting the construction,... when it comes to future policy, over 50 percent of the participants advised the government to opt for cleaner sources of energy.
Back in June... the government suspended the reactors' construction, and then established the independent commission in charge of collecting views from the public.
Since August, the commission formed a jury and provided them with information on the merits and downsides of the project.
The 471 jury members spent four days together debating the issue over the past weekend,... during which they heard from experts representing both sides.
After that, the commission conducted a final survey of the jury, and based on its results, drew up its recommendation to the government.
Myungkil the 471-person jury's decision deals quite a big blow to President Moon's drive to ultimately make Korea a nuclear-free country. What was the reaction from the Blue House?
Yes, Daeun that's right.
President Moon Jae-in will preside over the Cabinet meeting on October 24th and will make the final decision over whether to accept the committee's recommendation... to restart the construction of the Shin Kori 5 and 6 nuclear reactors.
Now it is likely that President Moon will respect the commission's decision and give the green light to the construction.
After getting Cabinet approval,... the state-run electric power company will notify contractors and restart the construction.
Such a decision does go counter to President Moon's pledge during his campaign period as he had said he would halt the construction of any nuclear reactors.
Some four million U.S. dollars was spent running this special commission,... and over one billion dollars has been spent on the Shin Kori 5 and 6 nuclear reactor construction project.
But while the decision to restart construction is a set-back for President Moon, the commission's other findings could be seen as in line with the Moon administration's plans to phase out Korea's reliance on nuclear energy in the long-term.
Back to you Daeun.
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METTLER TOLEDO seminars are local events tailored to R&D and ProcessDevelopment topics, such as crystallization, continuous flow chemistry, or chemical process...

METTLER TOLEDO seminars are local events tailored to R&D and ProcessDevelopment topics, such as crystallization, continuous flow chemistry, or chemical process safety: https://www.mt.com/us/en/home/events/seminars/Automated-Reactors-Seminars.htmlOnline seminars are interactive web-based events designed for scientists to learn from industry experts in topics, including crystallization, continuous flow chemistry, or chemical process development.
Seminars allow chemists and engineers to hear from industry experts and influencers, network with like-minded peers, engage with new technologies, learn pioneering industry trends, and gain practical techniques for reaction understanding and process optimization.
Product and application training offerings include ReactIR FTIRSpectroscopy Onsite Training, ParticleSystem Characterization (ParticleTrack with FBRM and ParticleView with PVM) Onsite Training.
If you would like to present to an audience of 100 or 1000, METTLER TOLEDO would love to hear about your scientific findings.
We work with scientists to shine a spotlight on the important work that is being done in process development and R&D. Openings for upcoming online and local seminars are available.
To learn more about the topics discussed at past METTLER TOLEDO seminars, feel free to explore the following topics (from the Research & DevelopmentSeminar in Iselin, NJMay 18, 2017):
• Development of Continuous Flow Processes in the Pharmaceutical Industry and the Use of Online Analytical Tools - Francois Louis Levesque, Merck & Co.
• Discovery and Mitigation of Barriers to Scale-up – AndrewGrace, Bristol-Myers Squibb
• Batch and Flow ReactionEndpointDetermination, Distillation Monitoring, and Multi-Instrument Calibration Development - Charles Goss, GlaxoSmithKline
• How the Quality and Efficiency of an API Crystallization Process are Developed at a CRO - Jian Wang, J-StarResearch
• Fermentation Monitoring Case Studies (Lab and CommercialScale) - Jim Cronin, METTLER TOLEDO (formerly of DuPont)
• Process Fingerprinting Tools in the Development of an Alkylation Reaction - Kevin Stone, Merck & Co.
• PAT Tools and ParameterEstimation Methods Applied to Salting Out Crystallization - Lofti Derdour, GlaxoSmithKline

METTLER TOLEDO seminars are local events tailored to R&D and ProcessDevelopment topics, such as crystallization, continuous flow chemistry, or chemical process safety: https://www.mt.com/us/en/home/events/seminars/Automated-Reactors-Seminars.htmlOnline seminars are interactive web-based events designed for scientists to learn from industry experts in topics, including crystallization, continuous flow chemistry, or chemical process development.
Seminars allow chemists and engineers to hear from industry experts and influencers, network with like-minded peers, engage with new technologies, learn pioneering industry trends, and gain practical techniques for reaction understanding and process optimization.
Product and application training offerings include ReactIR FTIRSpectroscopy Onsite Training, ParticleSystem Characterization (ParticleTrack with FBRM and ParticleView with PVM) Onsite Training.
If you would like to present to an audience of 100 or 1000, METTLER TOLEDO would love to hear about your scientific findings.
We work with scientists to shine a spotlight on the important work that is being done in process development and R&D. Openings for upcoming online and local seminars are available.
To learn more about the topics discussed at past METTLER TOLEDO seminars, feel free to explore the following topics (from the Research & DevelopmentSeminar in Iselin, NJMay 18, 2017):
• Development of Continuous Flow Processes in the Pharmaceutical Industry and the Use of Online Analytical Tools - Francois Louis Levesque, Merck & Co.
• Discovery and Mitigation of Barriers to Scale-up – AndrewGrace, Bristol-Myers Squibb
• Batch and Flow ReactionEndpointDetermination, Distillation Monitoring, and Multi-Instrument Calibration Development - Charles Goss, GlaxoSmithKline
• How the Quality and Efficiency of an API Crystallization Process are Developed at a CRO - Jian Wang, J-StarResearch
• Fermentation Monitoring Case Studies (Lab and CommercialScale) - Jim Cronin, METTLER TOLEDO (formerly of DuPont)
• Process Fingerprinting Tools in the Development of an Alkylation Reaction - Kevin Stone, Merck & Co.
• PAT Tools and ParameterEstimation Methods Applied to Salting Out Crystallization - Lofti Derdour, GlaxoSmithKline

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of ...

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

http://ThoriumRemix.com/ This 2-fluid reactor design was also designed to be modular. To bring new nuclear power plants online quickly- they were into Small Mod...

http://ThoriumRemix.com/ This 2-fluid reactor design was also designed to be modular. To bring new nuclear power plants online quickly- they were into Small Modular Reactors before Small Modular Reactors were cool. Liquid fluoride reactors with their low pressure operation are particularly suitable to modular construction. -Kirk Sorensen of Flibe Energy
Thorium & MSR & Nuclear assets used in Thorium Remix project.

http://ThoriumRemix.com/ This 2-fluid reactor design was also designed to be modular. To bring new nuclear power plants online quickly- they were into Small Modular Reactors before Small Modular Reactors were cool. Liquid fluoride reactors with their low pressure operation are particularly suitable to modular construction. -Kirk Sorensen of Flibe Energy
Thorium & MSR & Nuclear assets used in Thorium Remix project.

Around 10 nuclear reactors get Union Government's nod in the country.
Kairali People is a leading Malayalam news channel, owned by Kairali TV, which brings to you round the clock coverage of breaking news. The channel is reputed for its accurate, fast and unbiased coverage of news stories. Apart from regional news, this channel brings to you news from across the globe.
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Around 10 nuclear reactors get Union Government's nod in the country.
Kairali People is a leading Malayalam news channel, owned by Kairali TV, which brings to you round the clock coverage of breaking news. The channel is reputed for its accurate, fast and unbiased coverage of news stories. Apart from regional news, this channel brings to you news from across the globe.
Subscribe: https://www.youtube.com/user/peopletvonline
Circle us on G+: https://plus.google.com/u/0/b/104936936924302791673/104936936924302791673
Subscribe on twitter: https://twitter.com/PeopleTVnews

Playing around with the Big Reactors mod. Hermitcraft Mod Sauce server is an online Minecraft server inhabited solely by YouTubers for the purpose of making vid...

Playing around with the Big Reactors mod. Hermitcraft Mod Sauce server is an online Minecraft server inhabited solely by YouTubers for the purpose of making videos. My goal in this game is to show you you the best in cool building and crafting on this modded server!
Donate for rewards!
http://www.patreon.com/spumwack
IntroMusic by Approaching Nirvana
http://youtube.com/user/approachingnirvana
Song: Running
Buy the song on iTunes: http://bit.ly/pbUTp1
Don't forget to check out the Hermitcraft Google+ community!
https://plus.google.com/communities/100390813344472355695
or the website at
http://www.hermitcraft.com
Facebook:
http://www.facebook.com/pages/spumwack/150788518395218
Twitter:
https://twitter.com/spumwack
PackDownload:
http://hermitcraft.com/modsauce

Playing around with the Big Reactors mod. Hermitcraft Mod Sauce server is an online Minecraft server inhabited solely by YouTubers for the purpose of making videos. My goal in this game is to show you you the best in cool building and crafting on this modded server!
Donate for rewards!
http://www.patreon.com/spumwack
IntroMusic by Approaching Nirvana
http://youtube.com/user/approachingnirvana
Song: Running
Buy the song on iTunes: http://bit.ly/pbUTp1
Don't forget to check out the Hermitcraft Google+ community!
https://plus.google.com/communities/100390813344472355695
or the website at
http://www.hermitcraft.com
Facebook:
http://www.facebook.com/pages/spumwack/150788518395218
Twitter:
https://twitter.com/spumwack
PackDownload:
http://hermitcraft.com/modsauce

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

published: 20 Jun 2017

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
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Русский гайд по моду Big Reactors #1

GENERATIONS REACT TO ELECTION 2016

Election 2016 discussed by all generations.
Subscribe to FBE! New videos every week! http://goo.gl/aFu8C
Watch all main React episodes (Kids/Teens/Elders/Adults/YouTubers): http://goo.gl/4iDVa
Kids, College Kids, Adults & Elders react to the 2016 Presidential election. Watch to see their reaction.
Click in the list below to jump to some of the topic being discussed:
https://goo.gl/cBqp7s: Are these the best candidates?
https://goo.gl/xqfd18: Obamacare
https://goo.gl/vEPlT6: TrumpWall/Muslim Ban
https://goo.gl/TIXeCy: Clinton Emails
https://goo.gl/KlruiD: 1st Female President
https://goo.gl/ir59jV: Who Are You Voting for?
https://goo.gl/Y2GNP4: Kids Opinions Their Own?
Video featured in this episode:
FirstPresidential Debate:
https://goo.gl/Dmg0Xg
Second Presidential Debate:
goo.gl/...

published: 06 Nov 2016

World's First NUCLEAR SALT REACTOR - Documentary Films

World's First NUCLEAR SALT REACTOR - Documentary Films
A liquified salt activator (MSR) is a class of nuclear fission activators where the primary coolant, or also the energy itself, is a liquified salt mix. MSRs perform at higher temperature levels than water-cooled reactors for greater thermodynamic savings, while staying at low vapor tension.
In many designs the nuclear energy is dissolved in the molten fluoride salt coolant as uranium tetrafluoride (UF4). Solid energy designs rely on ceramic energy dispersed in a graphite matrix, regarding the molten salt providing low stress, high temperature level air conditioning.
The early Aircraft Reactor Experiment (1954) was primarily motivated by the tiny dimension that the style might offer, while the Molten-Salt Reactor Experiment (1965-- ...

published: 26 Jan 2015

The Thorium Molten-Salt Reactor: Why Didn't This Happen (and why is now the right time?)

ReactorCraft Fusion Reactor Build Tutorial

How to build the new ReactorCraft fusion reactor. I walk you through all the pieces of the reactor and the support structures and indicate where tutorial diverges from practice.
Mod Download:
http://www.minecraftforum.net/topic/1969694-

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017...

published: 20 Nov 2017

Case Studies of Optimizing and Troubleshooting FCC Reactors and Regenerators

ScottThibault from CPFD Software presented case studies on how leading refiners, top engineering firms, and major FCC technology licensors are using our CPFD modeling technology to assess performance and identify and address potential issues early in the turnaround planning process in areas such as:
· Erosion Mitigation
· Emissions Control
· CycloneEfficiency
· AfterburnReduction
· Catalyst Losses/Carryover
Watch and see how you could benefit from a decision support system for your FCC design and operations.

published: 21 May 2013

Exploring an Abandoned Nuclear Power Plant

In one of our craziest explorations ever, we find our way into a long-shuttered nuclear power plant.
http://theproperpeople.com
Reddit discussion:
https://www.reddit.com/r/theproperpeople/comments/54xi0f/abandoned_nuclear_power_plant_inside_the_reactor/
JOIN US ON:
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http://twitter.com/theproperpeople
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Enjoying our videos? Help us make more by buying a t-shirt: http://theproperpeople.spreadshirt.com
Supporting us on Patreon:
http://patreon.com/theproperpeople
Or shopping through our Amazon affiliate link: https://www.amazon.com/?tag=thepropeo0d-20

published: 28 Sep 2016

The Molten-Salt Reactor Experiment

This film was produced in 1969 by Oak Ridge National Laboratory for the United States Atomic Energy Commission to inform the public regarding the history, technology, and milestones of the Molten Salt Reactor Experiment (MSRE). Oak Ridge National Laboratory's Molten Salt Reactor Experiment was designed to assess the viability of liquid fuel reactor technologies for use in commercial power generation. It operated from January 1965 through December 1969, logging more than 13,000 hours at full power during its four-year run. The MSRE was designated a nuclear historic landmark in 1994.
Thanks toY-12 for the collection, preservation and digitization of this and other historic films.

Factorio 0.15 Nuclear Power Tutorial - Features & Ratios

This Factorio 0.15 Nuclear Power Tutorial marks the first in my version 0.15 update tutorial and guide series. In this video I walk you through the Nuclear Power Ratios and Features, from the start point of mining Uranium to processing it in the new Centrifuge building and finally using reactors, heat exchanges and steam turbines to generate power.
Ratios:
1 Offshore pump can support 11.6Heat Exchanges
1 Nuclear Reactor can support 4 Heat Exchanges
Each Heat Exchange supports 1.72 SteamTurbines
Each Turbine provides 5.8MW of Power.
Very informative Reddit post where a lot of these numbers are from: https://www.reddit.com/r/factorio/comments/67xgge/nuclear_ratios/?sort=confidence
Videos are best viewed through the Playlist: https://www.youtube.com/playlist?list=PLwehwVVQirAfLT1_tDKR...

published: 29 Apr 2017

An unbiased look at Molten Salt Reactors

Atkins lecture series takes a hard look at Molten Salt Reactors. Sorry about the volume on this video (it is rather low in some areas)

The Merits of Thorium (Kirk Sorensen)

Kirk Sorensen makes a terrific case for Thorium in this criminally underrated documentary. China, India, and Norway will have reactors online within two decades. This will mark a quantum leap in energy production.

Molten Salt Reactors - Dr Ian Scott

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of ...

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

The Nuclear Institue is the professional body and learned society for the nuclear industry in the UK. Join today starting at £72 per year to receive a range of member benefits such as access to our bi-monthly Industry journal - http://www.nuclearinst.com/NI-Membership

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover th...

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
--------------------------------------------------------------------------------------
Hit me up on social networking as well:
Facebook: https://www.facebook.com/ToAsgaard/
Twitter: https://twitter.com/ToAsgaard
Steam: To Asgaard

ReactorCraft Fusion Reactor Build Tutorial

How to build the new ReactorCraft fusion reactor. I walk you through all the pieces of the reactor and the support structures and indicate where tutorial diverg...

How to build the new ReactorCraft fusion reactor. I walk you through all the pieces of the reactor and the support structures and indicate where tutorial diverges from practice.
Mod Download:
http://www.minecraftforum.net/topic/1969694-

How to build the new ReactorCraft fusion reactor. I walk you through all the pieces of the reactor and the support structures and indicate where tutorial diverges from practice.
Mod Download:
http://www.minecraftforum.net/topic/1969694-

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient...

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

published:20 Nov 2017

views:12696

back

Case Studies of Optimizing and Troubleshooting FCC Reactors and Regenerators

ScottThibault from CPFD Software presented case studies on how leading refiners, top engineering firms, and major FCC technology licensors are using our CPFD m...

ScottThibault from CPFD Software presented case studies on how leading refiners, top engineering firms, and major FCC technology licensors are using our CPFD modeling technology to assess performance and identify and address potential issues early in the turnaround planning process in areas such as:
· Erosion Mitigation
· Emissions Control
· CycloneEfficiency
· AfterburnReduction
· Catalyst Losses/Carryover
Watch and see how you could benefit from a decision support system for your FCC design and operations.

ScottThibault from CPFD Software presented case studies on how leading refiners, top engineering firms, and major FCC technology licensors are using our CPFD modeling technology to assess performance and identify and address potential issues early in the turnaround planning process in areas such as:
· Erosion Mitigation
· Emissions Control
· CycloneEfficiency
· AfterburnReduction
· Catalyst Losses/Carryover
Watch and see how you could benefit from a decision support system for your FCC design and operations.

Exploring an Abandoned Nuclear Power Plant

In one of our craziest explorations ever, we find our way into a long-shuttered nuclear power plant.
http://theproperpeople.com
Reddit discussion:
https://www...

In one of our craziest explorations ever, we find our way into a long-shuttered nuclear power plant.
http://theproperpeople.com
Reddit discussion:
https://www.reddit.com/r/theproperpeople/comments/54xi0f/abandoned_nuclear_power_plant_inside_the_reactor/
JOIN US ON:
http://facebook.com/theproperpeople
http://twitter.com/theproperpeople
http://instagram.com/theproperpeople
https://www.reddit.com/r/theproperpeople
Enjoying our videos? Help us make more by buying a t-shirt: http://theproperpeople.spreadshirt.com
Supporting us on Patreon:
http://patreon.com/theproperpeople
Or shopping through our Amazon affiliate link: https://www.amazon.com/?tag=thepropeo0d-20

In one of our craziest explorations ever, we find our way into a long-shuttered nuclear power plant.
http://theproperpeople.com
Reddit discussion:
https://www.reddit.com/r/theproperpeople/comments/54xi0f/abandoned_nuclear_power_plant_inside_the_reactor/
JOIN US ON:
http://facebook.com/theproperpeople
http://twitter.com/theproperpeople
http://instagram.com/theproperpeople
https://www.reddit.com/r/theproperpeople
Enjoying our videos? Help us make more by buying a t-shirt: http://theproperpeople.spreadshirt.com
Supporting us on Patreon:
http://patreon.com/theproperpeople
Or shopping through our Amazon affiliate link: https://www.amazon.com/?tag=thepropeo0d-20

This film was produced in 1969 by Oak Ridge National Laboratory for the United States Atomic Energy Commission to inform the public regarding the history, technology, and milestones of the Molten Salt Reactor Experiment (MSRE). Oak Ridge National Laboratory's Molten Salt Reactor Experiment was designed to assess the viability of liquid fuel reactor technologies for use in commercial power generation. It operated from January 1965 through December 1969, logging more than 13,000 hours at full power during its four-year run. The MSRE was designated a nuclear historic landmark in 1994.
Thanks toY-12 for the collection, preservation and digitization of this and other historic films.

This film was produced in 1969 by Oak Ridge National Laboratory for the United States Atomic Energy Commission to inform the public regarding the history, technology, and milestones of the Molten Salt Reactor Experiment (MSRE). Oak Ridge National Laboratory's Molten Salt Reactor Experiment was designed to assess the viability of liquid fuel reactor technologies for use in commercial power generation. It operated from January 1965 through December 1969, logging more than 13,000 hours at full power during its four-year run. The MSRE was designated a nuclear historic landmark in 1994.
Thanks toY-12 for the collection, preservation and digitization of this and other historic films.

Factorio 0.15 Nuclear Power Tutorial - Features & Ratios

This Factorio 0.15 Nuclear Power Tutorial marks the first in my version 0.15 update tutorial and guide series. In this video I walk you through the Nuclear Powe...

This Factorio 0.15 Nuclear Power Tutorial marks the first in my version 0.15 update tutorial and guide series. In this video I walk you through the Nuclear Power Ratios and Features, from the start point of mining Uranium to processing it in the new Centrifuge building and finally using reactors, heat exchanges and steam turbines to generate power.
Ratios:
1 Offshore pump can support 11.6Heat Exchanges
1 Nuclear Reactor can support 4 Heat Exchanges
Each Heat Exchange supports 1.72 SteamTurbines
Each Turbine provides 5.8MW of Power.
Very informative Reddit post where a lot of these numbers are from: https://www.reddit.com/r/factorio/comments/67xgge/nuclear_ratios/?sort=confidence
Videos are best viewed through the Playlist: https://www.youtube.com/playlist?list=PLwehwVVQirAfLT1_tDKRatAF1EmZHYAVC
Stay up to date with new releases by Subscribing.
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Server Info: Join the Discord Group for mod pack & other info.
Server Password: XTYTSub
Check out Factorio at: https://www.factorio.com
Factorio is a game in which you build and maintain factories.
You will be mining resources, researching technologies, building infrastructure, automating production and fighting enemies. Use your imagination to design your factory, combine simple elements into ingenious structures, apply management skills to keep it working and finally protect it from the creatures who don't really like you.
OutroMusic: Rubik [NCSRelease]
Provided by NoCopyrightSounds
You can find the track here: https://www.youtube.com/watch?v=A2AydJcUKR8
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This Factorio 0.15 Nuclear Power Tutorial marks the first in my version 0.15 update tutorial and guide series. In this video I walk you through the Nuclear Power Ratios and Features, from the start point of mining Uranium to processing it in the new Centrifuge building and finally using reactors, heat exchanges and steam turbines to generate power.
Ratios:
1 Offshore pump can support 11.6Heat Exchanges
1 Nuclear Reactor can support 4 Heat Exchanges
Each Heat Exchange supports 1.72 SteamTurbines
Each Turbine provides 5.8MW of Power.
Very informative Reddit post where a lot of these numbers are from: https://www.reddit.com/r/factorio/comments/67xgge/nuclear_ratios/?sort=confidence
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Check out Factorio at: https://www.factorio.com
Factorio is a game in which you build and maintain factories.
You will be mining resources, researching technologies, building infrastructure, automating production and fighting enemies. Use your imagination to design your factory, combine simple elements into ingenious structures, apply management skills to keep it working and finally protect it from the creatures who don't really like you.
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The Merits of Thorium (Kirk Sorensen)

Kirk Sorensen makes a terrific case for Thorium in this criminally underrated documentary. China, India, and Norway will have reactors online within two decades...

Kirk Sorensen makes a terrific case for Thorium in this criminally underrated documentary. China, India, and Norway will have reactors online within two decades. This will mark a quantum leap in energy production.

Kirk Sorensen makes a terrific case for Thorium in this criminally underrated documentary. China, India, and Norway will have reactors online within two decades. This will mark a quantum leap in energy production.

Four Types of F T Reactors

This video is made available as part of the biofuels education projects funded by the National Science Foundation and the U.S.Department of Agriculture.
Basically, four F-T reactor designs have been used commercially these years -- the Multi-tubular Fixed Bed, the Slurry Bed and the Fluidized (with either Fixed or Circulating Bed) reactor. The Slurry and Fixed Bed reactor are used in Low Temperature F-T process (LTFT), while the Fluidized Bed reactors are used in HighTemperature F-T process (HTFT).

3:53

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant i...

Inside a nuclear reactor core - Bang Goes The Theory - BBC

Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works.
Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all.
Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy
BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide

18:03

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit...

Reactor Hall of Unit 2, Chernobyl Nuclear Power Plant

Update 24 Jan. 2017: still photos are posted at https://carlwillis.wordpress.com
We visit the Unit 2 reactor hall (central hall) at Chernobyl Nuclear Power Plant in November of 2016. My video editing skills are minimal and I am slow, so for better material please visit the channel of my nuclear companion Bionerd23:
https://www.youtube.com/user/bionerd23
The RBMK is notable for its circular reactor lid where the control rod drive mechanisms reside and where loading and unloading of fuel occurs by means of a massive crane-mounted machine. In essence, the hall is a heavy-walled hot cell designed to shield potentially high radiation levels while fuel operations are underway. The hall also contains the short-term spent fuel storage basins, fresh fuel storage, a fuel transfer hatch to ground level, and access panels into the upper steamwater communication lines linking the reactor channels to the steam separators on either side. Unit 2 at Chernobyl has been shut down since a fire in 1991 damaged its generators and feedwater system. The reactor is defueled and dry, as are its spent fuel basins.
Some highlights of this video tour:
0:31 The reactor building elevator threatens to malfunction and we take the stairs instead.
3:03 Entrance to the anteroom of the Central Hall on the +20.2m level, where we put on additional PPE clothing.
5:02 Central Hall shielding maze
7:20 Gamma radiation above pressure tubes on reactor face is about 3.3 mR/h.
10:10 Fuel element stringers in the spent fuel pool are locally contaminated and spicy, with one measurement showing 2 R/h.
14:16 Discussion of the division of reactor channels between fuel and the protection and control (SUZ) system, noting that one SUZ channel has been repurposed for neutron transmutation of silicon. The RBMK was particularly good for this, and it occurred in Units 2 and 3 at Chernobyl.
14:58 Ascend the scaffolding to the refueling machine operator's compartment and look out the leaded glass window.

http://ElysiumIndustries.com/ Ed Pheil argues for the fast-spectrum Molten-Salt Reactor designed by Elysium Industries. It offers fuel flexibility and efficient consumption of fissile and fertile fuels.
While not boasting the highest operating temperature of proposed MSR, Elysium's reactor [MCSFR] will be built utilizing existing code-qualified materials, and will have serviceable components. Elysium's reactor design is focused on technical readiness. This reduces cost and time for development and testing.
http://ThoriumRemix.com/ Video shot by volunteers and edited by Gordon McDowell as part of ongoing Thorium Remix project. Thorium Remix is Patreon funded.
http://ThoriumEnergyAlliance.com/ Presented at TEAC8 ( Thorium Energy AllianceConference #8 ) on 2017-08-21 ( August 21st, 2017 ).

Nick discusses his experience attending a coding bootcamp with Kathryn who also attended a coding bootcamp a few months ago. Nick attending MakerSquare (now known as Hack Reactor) in Austin, Texas and Kathryn attended CodeCraft in Boulder, Colorado. They answer questions such as- are coding bootcamps worth it? Should you get a Computer Science degree or go to a coding bootcamp? Were we able to get jobs after graduating from a coding bootcamp? Do we recommend attending a coding bootcamp? How much do coding bootcamps cost? What are the job prospects like after attending a bootcamp? We also talk about how to learn to code for free to little cost online.
Some resources that we recommend:
https://www.udemy.com/
https://teamtreehouse.com/
https://www.codecademy.com/
Subscribe here! http://bit.ly/2m11xVA
Follow Kathryn on Instagram @kathrynclarksonsmith
Follow Nick on Twitter @npsmith90
Follow Kathryn on Twitter @kathryngracec
Thank you all so much for watching, commenting and subscribing!

Nuclear Reactor - Understanding how it works | Physics Elearnin

Nuclear Reactor - Understanding how it works | Physics Elearnin videoNuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system.
A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods.
Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the reactor, in large power reactor thousands of fuel elements are placed close to each other. This region where these fuel elements are placed is called the reactor core. These fuel elements are normally immersed in water which acts as a moderator.
The objective of a moderator is to slow down the energy neutrons in a nuclear reactor which are produced during the nuclear fission process by the fuel elements. Thermal neutrons, which are neutrons with energy of about 0.04 electron volts, are capable of producing fission reaction with 235 92U. During the fission reaction process, new neutrons are given out which have energies of about 1 MeV. These neutrons of typically escape from participating in another fission process as they are accompanied by enormous energy release. In f -ct, the probability of these neutrons produce another fission reaction is 500 times less than as compared to that of a thermal neutron. This is where moderator is extremely useful. Moderator has the capability to slow down, or in other words moderate, the speed of these high-energy neutrons, so that they can in turn be used for a chain reaction to trigger multiple fission reactions of other 235 92U nucleus.
Commonly, ordinary or heavy water is used as moderator in nuclear reactors because of the deuterons present in them which are capable of slowing the neutron speed. Water molecules in the moderator are useful in slowing down the high-energy neutrons which leave the fuel-element after nuclear fission. These high-energy neutrons collide with water molecules thereby losing out on some energy with every collision and therefore slow down substantially. A new fission reaction can now be triggered using this slow neutron by striking it with the fuel element.
The third and of the most prominent part of a nuclear reactor are the control rods. In order to get a steady output of energy from the nuclear reactor, every single nuclear fission reaction should trigger another fission reaction and ensure the availability of a spare neutron released to trigger the chain reaction. By controlling the number of spare neutrons available at any given time, the rate of the nuclear fission chain reaction can be controlled. This control on the fission reaction can be maintained using the control rods.
The main function of the control rods is to absorb any excess or spare neutron in the moderator in order to prevent any further fission reaction. Usually such control rods are made of Boron or Cadmium. To increase the rate of fission reactions, these rods can be removed from the moderator. A steady output of energy can be thus maintained by inserting or removing the control rods in the nuclear reactor.
Now that we know the components of a nuclear reactor, let us understand the working of a nuclear reactor. It is usually enclosed in a shield made of thick concrete walls. It consists of a reactor core, pump and heat exchanger. The reactor core and pump are in placed in contact with the water, which is usually the heat exchanger used in reactors. Due to the enormous amount of heat released dusing nuclear fission reaction, this surrounding water gets heated up and changes to steam, which is in turn used to turn the turbines. Thus huge heat energy gets converted into electrical energy. Water is continuously flown in and out of the nuclear reactor using the pump.
Thus a nuclear reactor successfully generates nuclear energy from fission reaction.

40:41

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in...

Nuclearcraft How To Pt. 3: Fission Reactors

In this third episode of our Nuclearcraft tutorial/spotlight, we cover fission reactors in detail. I'm sorry thats its a little long, I just wanted to cover the reactors in detail because they can be dangerous and, as you will see, can explode suddenly and violently.
Link to fuel variables: https://github.com/turbodiesel4598/NuclearCraft
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Amira's Reactors Observed

In AMIRA OBSERVATIONS Part 2, a close look at Amira's Reactors.
For a donation at Amira's foundation Gelukskinders:
https://www.gelukskinders.org/en/
Amira Offical YouTube: https://www.youtube.com/user/nederlan...
Amira Online: http://amira-online.com/
I'm not monetizing the video.
My ultimate goal is the promotion of Amira, with the heart and by the works.

Next Generation Nuclear Reactors

Nuclear power in the U.S. is made up of 99 commercial reactors -- 65 pressurized water reactors and 34 boiling water reactors. In 2016 they produced a total of 805.3 terawatt-hours of electricity or almost 20% of the nation's total electric energy generation. Majority of reactors in operation around the world are considered Generation II reactors. More Generation III reactors are coming online.
Safety concerns and the high costs of development and operations have led to a new generation of advanced nuclear power designs.
Small Nuclear Power Reactors
Small nuclear reactors are becoming a cheaper and safer alternative to traditional nuclear power plant designs.
Advanced Nuclear Power Reactors
Newer advanced reactors are being built using simpler designs to reduce cost, increase fuel efficiency and make it safer.
In this video, I cover GenerationIII and IV Reactors.
About Christian Amyx
11 year old programmer & Internet of Things maker. Spreading the love of innovation and development to kids around the world. (Account moderated by parents.)
Website: http://www.christianamyx.com
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Kobe Steel data scandal to delay restart of four nuclear reactors

The planned restart of four reactors in central and southwestern Japan will be delayed as nuclear operators need time to confirm whether peripheral equipment used parts affected by Kobe Steel’s data fabrication, the operators said Thursday. The reactors affected are the Nos. 3 and 4 units at Kansai Electric Power Co.’s Oi plant in Fukui Prefecture and the Nos. 3 and 4 units at Kyushu Electric Power Co.’s Genkai plant in Saga Prefecture. All four reactors were originally set to go online early next year. According to the Nuclear Regulation Authority, which received reports from utilities after the data fabrication came to light, Kobe Steel Ltd. products were used in the four reactors. But the utilities said at the time they were not products affected by the data fabrication. Kansai Electric Power has so far ruled out any safety concerns, and on Monday Shigeki Iwane, the firm’s president, said he didn’t expect the issue would cause a delay. But the company is now considering pushing back the schedule for restarting the Oi reactors in order to inspect their peripheral equipment, company officials said. Just days earlier, Fukui Gov. Issei Nishikawa gave final local consent for the reactivation of the two reactors, which have cleared a set of new safety requirements introduced after the 2011Fukushima nuclear crisis. Fukui also hosts Kansai Electric Power’s Takahama plant, where two reactors have already resumed operation. There are lingering concerns over whether the utility and residents are fully prepared for the risk of a scenario involving simultaneous disasters at the two nearby complexes. The Fukuoka-based Kyushu Electric said Thursday it will postpone the reactivation of the Genkai reactors to March and May, respectively. The firm has found that its reactor containment vessels used reinforcing bars supplied by Kobe Steel. But the products were made at factories that were not involved in data fabrication, according to the utility. The reactivation of the four reactors at the Oi and Genkai plants would bring the number of reactors operating in Japan to nearly 10, depending on whether other currently idled reactors go online as well. Japan currently has about 40 commercial reactors, but progress to bring them back online has been slow amid lingering safety concerns. Kobe Steel has admitted to falsifying data for its products and specifications — including aluminum, copper, steel powder, liquid crystal display materials and special steel products — which were supplied to 525 companies, from major automakers to bullet train operators..

Fission and Nuclear Reactors | Class 12 Physics Nuclei

Fission and Nuclear Reactors | Class 12 Physics Nuclei by Blaze
Scholarslearning.com is an online education portal that provides interactive study material for students of classes 6th to 12th for CBSE. Complete with elaborate live classes, multimedia tutorials, interactive exercises, practice tests and expert help, we endeavor to make school easy for students and help them score more. We also provide free NCERT solutions, subject-wise synopses and chapter-wise revision notes for classes 6th to 12th for a thorough understanding of concepts right from a basic to an advanced level of difficulty.
Download scholarslearning app from android and ios .

신고리 공론화위원회 권고안 발표
A state commission has announced the results of its public survey over the fate of two nuclear reactors,... that were being built near Ulsan in the southeast of the country.
The reactors' construction had previously been suspended by the Moon administration.
Our Ji Myung-kil now joins us on the phone to tell us more.
So Myung-kil,... walk us through the results of this survey.
Hello Daeun.
I'm at the government-complex in Seoul right now.
And just four hours ago,... the chairman of the state commission,... Kim Ji-hyung, announced the results... saying nearly 60 percent of the public favored continuing the construction of the two unfinished nuclear reactors... while 40 percent called for abandoning the construction.
Currently,... the two reactors are about 30 percent complete.
The commission also stated that although the public were in favor of restarting the construction,... when it comes to future policy, over 50 percent of the participants advised the government to opt for cleaner sources of energy.
Back in June... the government suspended the reactors' construction, and then established the independent commission in charge of collecting views from the public.
Since August, the commission formed a jury and provided them with information on the merits and downsides of the project.
The 471 jury members spent four days together debating the issue over the past weekend,... during which they heard from experts representing both sides.
After that, the commission conducted a final survey of the jury, and based on its results, drew up its recommendation to the government.
Myungkil the 471-person jury's decision deals quite a big blow to President Moon's drive to ultimately make Korea a nuclear-free country. What was the reaction from the Blue House?
Yes, Daeun that's right.
President Moon Jae-in will preside over the Cabinet meeting on October 24th and will make the final decision over whether to accept the committee's recommendation... to restart the construction of the Shin Kori 5 and 6 nuclear reactors.
Now it is likely that President Moon will respect the commission's decision and give the green light to the construction.
After getting Cabinet approval,... the state-run electric power company will notify contractors and restart the construction.
Such a decision does go counter to President Moon's pledge during his campaign period as he had said he would halt the construction of any nuclear reactors.
Some four million U.S. dollars was spent running this special commission,... and over one billion dollars has been spent on the Shin Kori 5 and 6 nuclear reactor construction project.
But while the decision to restart construction is a set-back for President Moon, the commission's other findings could be seen as in line with the Moon administration's plans to phase out Korea's reliance on nuclear energy in the long-term.
Back to you Daeun.
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